7.4.2 Lab – Implement DHCPv4 Answers

Last Updated on August 9, 2020 by Admin

7.4.2 Lab – Implement DHCPv4 Answers

Lab – Implement DHCPv4 (Answers Version)

Answers Note: Red font color or gray highlights indicate text that appears in the Answers copy only.

Topology

This topology has 2 PCs, 2 routers and 2 switches. PC-A is connected to S1 F6. S1 F0/5 is connected to R1 g0/0/1. R1 G0/0/0 is connected to R2 g0/0/0. R2 G0/0/1 is connected to S2 F0/5. S2 F0/18 is connected to PC-B

Addressing Table

Device

Interface

IP Address

Subnet Mask

Default Gateway

R1

G0/0/0

10.0.0.1

255.255.255.252

N/A

R1

G0/0/1

N/A

N/A

N/A

R1

G0/0/1.100

192.168.1.1

255.255.255.192

N/A

R1

G0/0/1.200

192.168.1.65

255.255.255.224

N/A

R1

G0/0/1.1000

N/A

N/A

N/A

R2

G0/0/0

10.0.0.2

255.255.255.252

N/A

R2

G0/0/1

192.168.1.97

255.255.255.240

N/A

S1

VLAN 200

192.168.1.66

255.255.255.224

192.168.1.65

S2

VLAN 1

192.168.1.98

255.255.255.240

192.168.1.97

PC-A

NIC

DHCP

DHCP

DHCP

PC-B

NIC

DHCP

DHCP

DHCP

VLAN Table

VLAN

Name

Interface Assigned

1

N/A

S2: F0/18

100

Clients

S1: F0/6

200

Management

S1: VLAN 200

999

Parking_Lot

S1: F0/1-4, F0/7-24, G0/1-2

1000

Native

N/A

Objectives

Part 1: Build the Network and Configure Basic Device Settings

Part 2: Configure and verify two DHCPv4 Servers on R1

Part 3: Configure and verify a DHCP Relay on R2

Background / Scenario

The Dynamic Host Configuration Protocol (DHCP) is a network protocol that lets network administrators manage and automate the assignment of IP addresses. Without DHCP for IPv4, the administrator must manually assign and configure IP addresses, preferred DNS servers, and default gateways. As the network grows in size, this becomes an administrative problem when devices are moved from one internal network to another.

In this scenario, the company has grown in size, and the network administrators can no longer assign IP addresses to devices manually. Your job is to configure the R1 router to assign IPv4 addresses on two different subnets.

Note: The routers used with CCNA hands-on labs are Cisco 4221 with Cisco IOS XE Release 16.9.4 (universalk9 image). The switches used in the labs are Cisco Catalyst 2960s with Cisco IOS Release 15.2(2) (lanbasek9 image). Other routers, switches, and Cisco IOS versions can be used. Depending on the model and Cisco IOS version, the commands available and the output produced might vary from what is shown in the labs. Refer to the Router Interface Summary Table at the end of the lab for the correct interface identifiers.

Note: Ensure that the routers and switches have been erased and have no startup configurations. If you are unsure contact your Answers.

Answers Note: Refer to the Answers Lab Manual for the procedures to initialize and reload devices

Required Resources

  • 2 Routers (Cisco 4221 with Cisco IOS XE Release 16.9.4 universal image or comparable)
  • 2 Switches (Cisco 2960 with Cisco IOS Release 15.2(2) lanbasek9 image or comparable)
  • 2 PCs (Windows with a terminal emulation program, such as Tera Term)
  • Console cables to configure the Cisco IOS devices via the console ports
  • Ethernet cables as shown in the topology

Instructions

Part 1:  Build the Network and Configure Basic Device Settings

In Part 1, you will set up the network topology and configure basic settings on the PC hosts and switches.

Step 1:  Establish an addressing scheme

Subnet the network 192.168.1.0/24 to meet the following requirements:

  1. One subnet, “Subnet A”, supporting 58 hosts (the client VLAN at R1).

Subnet A:

192.168.1.0/26 (.1 -.63)

Record the first IP address in the Addressing Table for R1 G0/0/1.100. Record the second IP address in the Address Table for S1 VLAN 200 and enter the associated default gateway.

  1. One subnet, “Subnet B”, supporting 28 hosts (the management VLAN at R1).

Subnet B:

192.168.1.64/27 (.65-.95)

Record the first IP address in the Addressing Table for R1 G0/0/1.200. Record the second IP address in the Address Table for S1 VLAN 1 and enter the associated default gateway.

  1. One subnet, “Subnet C”, supporting 12 hosts (the client network at R2).

Subnet C:

192.168.1.96/28 (.97-.111)

Record the first IP address in the Addressing Table for R2 G0/0/1.

Step 2:  Cable the network as shown in the topology.

Attach the devices as shown in the topology diagram, and cable as necessary.

Step 3:  Configure basic settings for each router.

  1. Assign a device name to the router.

Open configuration window

router(config)# hostname R1

  1. Disable DNS lookup to prevent the router from attempting to translate incorrectly entered commands as though they were host names.

R1(config)# no ip domain lookup

  1. Assign class as the privileged EXEC encrypted password.

R1(config)# enable secret class

  1. Assign cisco as the console password and enable login.

R1(config)# line console 0

R1(config-line)# password cisco

R1(config-line)# login

  1. Assign cisco as the VTY password and enable login.

R1(config)# line vty 0 4

R1(config-line)# password cisco

R1(config-line)# login

  1. Encrypt the plaintext passwords.

R1(config)# service password-encryption

  1. Create a banner that warns anyone accessing the device that unauthorized access is prohibited.

R1(config)# banner motd $ Authorized Users Only! $

  1. Save the running configuration to the startup configuration file.

R1# copy running-config startup-config

  1. Set the clock on the router to today’s time and date.

R1# clock set 15:30:00 27 Aug 2019

Note: Use the question mark (?) to help with the correct sequence of parameters needed to execute this command.

Step 4:  Configure Inter-VLAN Routing on R1

  1. Activate interface G0/0/1 on the router.

R1(config)# interface g0/0/1

R1(config-if)# no shutdown

R1(config-if)# exit

  1. Configure sub-interfaces for each VLAN as required by the IP addressing table. All sub-interfaces use 802.1Q encapsulation and are assigned the first usable address from the IP address pool you have calculated. Ensure the sub-interface for the native VLAN does not have an IP address assigned. Include a description for each sub-interface.

R1(config)# interface g0/0/1.100

R1(config-subif)# description Client Network

R1(config-subif)# encapsulation dot1q 100

R1(config-subif)# ip address 192.168.1.1 255.255.255.192

R1(config-subif)# interface g0/0/1.200

R1(config-subif)# encapsulation dot1q 200

R1(config-subif)# description Management Network

R1(config-subif)# ip address 192.168.1.65 255.255.255.224

R1(config-subif)# interface g0/0/1.1000

R1(config-subif)# encapsulation dot1q 1000 native

R1(config-subif)# description Native VLAN

  1. Verify the sub-interfaces are operational.

R1# show ip interface brief

Interface              IP-Address      OK? Method Status                Protocol

GigabitEthernet0/0/0   unassigned      YES unset  administratively down down

GigabitEthernet0/0/1   unassigned      YES unset  up                    up

Gi0/0/1.100            192.168.1.1     YES manual up                    up

Gi0/0/1.200            192.168.1.65    YES manual up                    up

Gi0/0/1.1000           unassigned      YES unset  up                    up

Step 5:  Configure G0/0/1 on R2, then G0/0/0 and static routing for both routers

  1. Configure G0/0/1 on R2 with the first IP address of Subnet C you calculated earlier.

R2(config)# interface g0/0/1

R2(config-if)# ip address 192.168.1.97 255.255.255.240

R2(config-if)# no shutdown

R2(config-if)# exit

  1. Configure interface G0/0/0 for each router based on the IP Addressing table above.

R1(config)# interface g0/0/0

R1(config-if)# ip address 10.0.0.1 255.255.255.252

R1(config-if)# no shutdown

 

R2(config)# interface g0/0/0

R2(config-if)# ip address 10.0.0.2 255.255.255.252

R2(config-if)# no shutdown

  1. Configure a default route on each router pointed to the IP address of G0/0/0 on the other router.

R1(config)# ip route 0.0.0.0 0.0.0.0 10.0.0.2

R2(config)# ip route 0.0.0.0 0.0.0.0 10.0.0.1

  1. Verify static routing is working by pinging R2’s G0/0/1 address from R1.

R1# ping 192.168.1.97

  1. Save the running configuration to the startup configuration file.

R1# copy running-config startup-config

Close configuration window

Step 6:  Configure basic settings for each switch.

  1. Assign a device name to the switch.

Open configuration window

switch(config)# hostname S1

  1. Disable DNS lookup to prevent the router from attempting to translate incorrectly entered commands as though they were host names.

S1(config)# no ip domain-lookup

  1. Assign class as the privileged EXEC encrypted password.

S1(config)# enable secret class

  1. Assign cisco as the console password and enable login.

S1(config)# line console 0

S1(config-line)# password cisco

S1(config-line)# login

  1. Assign cisco as the VTY password and enable login.

S1(config)# line vty 0 4

S1(config-line)# password cisco

S1(config-line)# login

  1. Encrypt the plaintext passwords.

S1(config)# service password-encryption

  1. Create a banner that warns anyone accessing the device that unauthorized access is prohibited.

S1(config)# banner motd $ Authorized Users Only! $

  1. Save the running configuration to the startup configuration file.

S1(config)# exit

S1# copy running-config startup-config

  1. Set the clock on the switch to today’s time and date.

S1# clock set 15:30:00 27 Aug 2019

Note: Use the question mark (?) to help with the correct sequence of parameters needed to execute this command.

  1. Copy the running configuration to the startup configuration.

Step 7:  Create VLANs on S1.

Note: S2 is only configured with basic settings.

  1. Create and name the required VLANs on switch 1 from the table above.

S1(config)# vlan 100

S1(config-vlan)# name Clients

S1(config-vlan)# vlan 200

S1(config-vlan)# name Management

S1(config-vlan)# vlan 999

S1(config-vlan)# name Parking_Lot

S1(config-vlan)# vlan 1000

S1(config-vlan)# name Native

S1(config-vlan)# exit

  1. Configure and activate the management interface on S1 (VLAN 200) using the second IP address from the subnet calculated earlier. Additionally, set the default gateway on S1.

S1(config)# interface vlan 200

S1(config-if)# ip address 192.168.1.66 255.255.255.224

S1(config-if)# no shutdown

S1(config-if)# exit

S1(config)# ip default-gateway 192.168.1.65

  1. Configure and activate the management interface on S2 (VLAN 1) using the second IP address from the subnet calculated earlier. Additionally, set the default gateway on S2

S2(config)# interface vlan 1

S2(config-if)# ip address 192.168.1.98 255.255.255.240

S2(config-if)# no shutdown

S2(config-if)# exit

S2(config)# ip default-gateway 192.168.1.97

  1. Assign all unused ports on S1 to the Parking_Lot VLAN, configure them for static access mode, and administratively deactivate them. On S2, administratively deactivate all the unused ports.

Note: The interface range command is helpful to accomplish this task with as few commands as necessary.

S1(config)# interface range f0/1 – 4, f0/7 – 24, g0/1 – 2

S1(config-if-range)# switchport mode access

S1(config-if-range)# switchport access vlan 999

S1(config-if-range)# shutdown

S1(config-if-range)# exit

Close configuration window

Open configuration window

S2(config)# interface range f0/1 – 4, f0/617, f0/19 – 24, g0/1 – 2

S2(config-if-range)# switchport mode access

S2(config-if-range)# shutdown

S2(config-if-range)# exit

Close configuration window

Step 8:  Assign VLANs to the correct switch interfaces.

  1. Assign used ports to the appropriate VLAN (specified in the VLAN table above) and configure them for static access mode.

Open configuration window

S1(config)# interface f0/6

S1(config-if)# switchport mode access

S1(config-if)# switchport access vlan 100

  1. Verify that the VLANs are assigned to the correct interfaces.

S1# show vlan brief

 

VLAN Name                             Status    Ports

—- ——————————– ——— ——————————-

1    default                          active    Fa0/5

100  Clients                          active    Fa0/6

200  Management                       active   

999  Parking_Lot                      active    Fa0/1, Fa0/2, Fa0/3, Fa0/4

                                                Fa0/7, Fa0/8, Fa0/9, Fa0/10

                                                Fa0/11, Fa0/12, Fa0/13, Fa0/14

                                                Fa0/15, Fa0/16, Fa0/17, Fa0/18

                                                Fa0/19, Fa0/20, Fa0/21, Fa0/22

                                                Fa0/23, Fa0/24, Gi0/1, Gi0/2

1000 Native                           active

1002 fddi-default                     act/unsup

1003 token-ring-default               act/unsup

1004 fddinet-default                  act/unsup

1005 trnet-default                    act/unsup

Question:

Why is interface F0/5 listed under VLAN 1?

Port 5 is in the default VLAN and has not been configured as an 802.1Q trunk.

Step 9:  Manually configure S1’s interface F0/5 as an 802.1Q trunk.

  1. Change the switchport mode on the interface to force trunking.

S1(config)# interface f0/5

S1(config-if)# switchport mode trunk

  1. As a part of the trunk configuration, set the native VLAN to 1000.

S1(config-if-range)# switchport trunk native vlan 1000

  1. As another part of trunk configuration, specify that VLANs 100, 200, and 1000 are allowed to cross the trunk.

S1(config-if-range)# switchport trunk allowed vlan 100,200,1000

  1. Save the running configuration to the startup configuration file.

S1(config)# exit

S1# copy running-config startup-config

  1. Verify trunking status.

S1# show interfaces trunk

 

Port        Mode             Encapsulation  Status        Native vlan

Fa0/5       on               802.1q         trunking      1000

 

Port        Vlans allowed on trunk

Fa0/5       100,200,1000

 

Port        Vlans allowed and active in management domain

Fa0/5       100,200,1000

 

Port        Vlans in spanning tree forwarding state and not pruned

Fa0/5       100,200,1000

Question:

At this point, what IP address would the PC’s have if they were connected to the network using DHCP?

They would self-configure with an Automatic Private IP Address (APIPA) address in the 169.254.x.x range.

Close configuration window

Part 2:  Configure and verify two DHCPv4 Servers on R1

In Part 2, you will configure and verify a DHCPv4 Server on R1. The DHCPv4 server will service two subnets, Subnet A and Subnet C.

Step 1:  Configure R1 with DHCPv4 pools for the two supported subnets. Only the DHCP Pool for subnet A is given below

  1. Exclude the first five useable addresses from each address pool.

Open configuration window

R1(config)# ip dhcp excluded-address 192.168.1.1 192.168.1.5

  1. Create the DHCP pool (Use a unique name for each pool).

R1(config)# ip dhcp pool R1_Client_LAN

  1. Specify the network that this DHCP server is supporting.

R1(dhcpconfig)# network 192.168.1.0 255.255.255.192

  1. Configure the domain name as ccna-lab.com

R1(dhcpconfig)# domain-name ccna-lab.com

  1. Configure the appropriate default gateway for each DHCP pool.

R1(dhcpconfig)# default-router 192.168.1.1

  1. Configure the lease time for 2 days 12 hours and 30 minutes.

R1(dhcpconfig)# lease 2 12 30

  1. Next, configure the second DHCPv4 Pool using the pool name R2_Client_LAN and the calculated network, default-router and use the same domain name and lease time from the previous DHCP pool.

R1(config)# ip dhcp excluded-address 192.168.1.97 192.168.1.101

R1(config)# ip dhcp pool R2_Client_LAN

R1(dhcpconfig)# network 192.168.1.96 255.255.255.240

R1(dhcpconfig)# default-router 192.168.1.97

R1(dhcpconfig)# domain-name ccna-lab.com

R1(dhcpconfig)# lease 2 12 30

Step 2:  Save your configuration

Save the running configuration to the startup configuration file.

R1# copy running-config startup-config

Close configuration window

Step 3:  Verify the DHCPv4 Server configuration

  1. Issue the command show ip dhcp pool to examine the pool details.
  2. Issue the command show ip dhcp bindings to examine established DHCP address assignments.
  3. Issue the command show ip dhcp server statistics to examine DHCP messages.

Step 4:  Attempt to acquire an IP address from DHCP on PC-A

  1. Open a command prompt on PC-A and issue the command ipconfig /renew.
  2. Once the renewal process is complete, issue the command ipconfig to view the new IP information.
  3. Test connectivity by pinging R1’s G0/0/1 interface IP address.

Part 3:  Configure and verify a DHCP Relay on R2

In Part 3, you will configure R2 to relay DHCP requests from the local area network on interface G0/0/1 to the DHCP server (R1).

Step 1:  Configure R2 as a DHCP relay agent for the LAN on G0/0/1

  1. Configure the ip helper-address command on G0/0/1 specifying R1’s G0/0/0 IP address.

Open configuration window

R2(config)# interface g0/0/1

R2(config-if)# ip helper-address 10.0.0.1

  1. Save your configuration.

R2(config-if)# exit

R2# copy running-configuration startup-configuration

Close configuration window

Step 2:  Attempt to acquire an IP address from DHCP on PC-B

  1. Open a command prompt on PC-B and issue the command ipconfig /renew.
  2. Once the renewal process is complete, issue the command ipconfig to view the new IP information.
  3. Test connectivity by pinging R1’s G0/0/1 interface IP address.
  4. Issue the show ip dhcp binding on R1 to verify DHCP bindings.
  5. Issue the show ip dhcp server statistics on R1 and R2 to verify DHCP messages.

End of document

Device Configs – Final

Switch S1

S1# show run

Building configuration…

 

Current configuration : 3194 bytes

!

version 15.2

no service pad

service timestamps debug datetime msec

service timestamps log datetime msec

service password-encryption

!

hostname S1

!

boot-start-marker

boot-end-marker

!

enable secret 5 $1$b/Df$nDTHDMqOPLb0hgz.shRjH.

!

no aaa new-model

system mtu routing 1500

!

!

no ip domain-lookup

!

!

spanning-tree mode rapid-pvst

spanning-tree extend system-id

!

vlan internal allocation policy ascending

!

!

interface FastEthernet0/1

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/2

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/3

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/4

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/5

 switchport trunk allowed vlan 100,200,1000

 switchport trunk native vlan 1000

 switchport mode trunk

!

interface FastEthernet0/6

 switchport access vlan 100

 switchport mode access

!

interface FastEthernet0/7

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/8

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/9

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/10

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/11

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/12

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/13

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/14

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/15

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/16

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/17

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/18

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/19

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/20

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/21

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/22

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/23

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface FastEthernet0/24

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface GigabitEthernet0/1

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface GigabitEthernet0/2

 switchport access vlan 999

 switchport mode access

 shutdown

!

interface Vlan1

 no ip address

 shutdown

!

interface Vlan200

 ip address 192.168.1.66 255.255.255.224

 

ip default-gateway 192.168.1.65

!

ip http server

ip http secure-server

!

banner motd ^C Authorized Users Only! ^C

!

line con 0

 password 7 060506324F41

 login

line vty 0 4

 password 7 060506324F41

 login

line vty 5 15

 login

!

vlan 100

 name Clients

vlan 200

 name Management

vlan 999

 name Parking_Lot

vlan 1000

 name Native

exit

!

end

Switch S2

S2# show run

Building configuration…

 

Current configuration : 2323 bytes

!

version 15.2

no service pad

service timestamps debug datetime msec

service timestamps log datetime msec

service password-encryption

!

hostname S2

!

boot-start-marker

boot-end-marker

!

enable secret 5 $1$86v.$3mG1aMq7hcn2P0ZDNa2o5.

!

no aaa new-model

system mtu routing 1500

!

!

no ip domain-lookup

!

!

spanning-tree mode rapid-pvst

spanning-tree extend system-id

!

vlan internal allocation policy ascending

!

!

interface FastEthernet0/1

 switchport mode access

 shutdown

!

interface FastEthernet0/2

 switchport mode access

 shutdown

!

interface FastEthernet0/3

 switchport mode access

 shutdown

!

interface FastEthernet0/4

 switchport mode access

 shutdown

!

interface FastEthernet0/5

!

interface FastEthernet0/6

 switchport mode access

 shutdown

!

interface FastEthernet0/7

 switchport mode access

 shutdown

!

interface FastEthernet0/8

 switchport mode access

 shutdown

!

interface FastEthernet0/9

 switchport mode access

 shutdown

!

interface FastEthernet0/10

 switchport mode access

 shutdown

!

interface FastEthernet0/11

 switchport mode access

 shutdown

!

interface FastEthernet0/12

 switchport mode access

 shutdown

!

interface FastEthernet0/13

 switchport mode access

 shutdown

!

interface FastEthernet0/14

 switchport mode access

 shutdown

!

interface FastEthernet0/15

 switchport mode access

 shutdown

!

interface FastEthernet0/16

 switchport mode access

 shutdown

!

interface FastEthernet0/17

 switchport mode access

 shutdown

!

interface FastEthernet0/18

!

interface FastEthernet0/19

 switchport mode access

 shutdown

!

interface FastEthernet0/20

 switchport mode access

 shutdown

!

interface FastEthernet0/21

 switchport mode access

 shutdown

!

interface FastEthernet0/22

 switchport mode access

 shutdown

!

interface FastEthernet0/23

 switchport mode access

 shutdown

!

interface FastEthernet0/24

 switchport mode access

 shutdown

!

interface GigabitEthernet0/1

 switchport mode access

 shutdown

!

interface GigabitEthernet0/2

 switchport mode access

 shutdown

!

interface Vlan1

 ip address 192.168.1.98 255.255.255.240

!

ip default-gateway 192.168.1.97

ip http server

ip http secure-server

!

banner motd ^C Authorized Users Only! ^C

!

line con 0

 password 7 045802150C2E

 login

line vty 0 4

 password 7 045802150C2E

 login

line vty 5 15

 login

!

end

Router R1

R1# show run

Building configuration…

 

 

Current configuration : 2225 bytes

!

version 16.9

service timestamps debug datetime msec

service timestamps log datetime msec

service password-encryption

no platform punt-keepalive disable-kernel-core

!

hostname R1

!

boot-start-marker

boot-end-marker

!

!

vrf definition Mgmt-intf

 !

 address-family ipv4

 exit-address-family

 !

 address-family ipv6

 exit-address-family

!

enable secret 5 $1$lzpq$ribRztM6WUv/dsnQ7x24a/

!

no aaa new-model

!

!

no ip domain lookup

ip dhcp excluded-address 192.168.1.1 192.168.1.5

ip dhcp excluded-address 192.168.1.97 192.168.1.101

!

ip dhcp pool R1_Client_LAN

 network 192.168.1.0 255.255.255.192

 domain-name ccna-lab.com

 default-router 192.168.1.1

 lease 2 12 30

!

ip dhcp pool R2_Client_LAN

 network 192.168.1.96 255.255.255.240

 default-router 192.168.1.97

 domain-name ccna-lab.com

 lease 2 12 30

!

!

subscriber templating

!

multilink bundle-name authenticated

!

spanning-tree extend system-id

!

!

redundancy

 mode none

!

!

interface GigabitEthernet0/0/0

ip address 10.0.0.1 255.255.255.252

 negotiation auto

!

interface GigabitEthernet0/0/1

 no ip address

 negotiation auto

!

interface GigabitEthernet0/0/1.100

 description Connected to Client Network

 encapsulation dot1Q 100

 ip address 192.168.1.1 255.255.255.192

!

interface GigabitEthernet0/0/1.200

 description Connected to Management Network

 encapsulation dot1Q 200

 ip address 192.168.1.65 255.255.255.224

!

interface GigabitEthernet0/0/1.1000

 description Connected to Native VLAN

 encapsulation dot1Q 1000 native

!

interface Serial0/1/0

!

interface Serial0/1/1

!

interface GigabitEthernet0

 vrf forwarding Mgmt-intf

 no ip address

 shutdown

 negotiation auto

!

ip forward-protocol nd

no ip http server

no ip http secure-server

ip tftp source-interface GigabitEthernet0

ip route 0.0.0.0 0.0.0.0 10.0.0.2

!

!

control-plane

!

banner motd ^C Authorized Users Only! ^C

!

line con 0

 password 7 01100F175804

 login

 stopbits 1

line aux 0

 stopbits 1

line vty 0 4

 password 7 02050D480809

 login

!

end

Router R2

R2# show run

Building configuration…

 

Current configuration : 1501 bytes

!

version 16.9

service timestamps debug datetime msec

service timestamps log datetime msec

service password-encryption

no platform punt-keepalive disable-kernel-core

!

hostname R2

!

boot-start-marker

boot-end-marker

!

!

vrf definition Mgmt-intf

 !

 address-family ipv4

 exit-address-family

 !

 address-family ipv6

 exit-address-family

!

enable secret 5 $1$swCy$LDg9k0nMAN5Cxn9EcPNSx1

!

no aaa new-model

!

no ip domain lookup

!

!

subscriber templating

!

multilink bundle-name authenticated

!

spanning-tree extend system-id

!

!

redundancy

 mode none

!

!

interface GigabitEthernet0/0/0

ip address 10.0.0.2 255.255.255.252

 negotiation auto

!

interface GigabitEthernet0/0/1

 ip address 192.168.1.97 255.255.255.240

 ip helper-address 10.0.0.1

negotiation auto

!

interface Serial0/1/0

!

interface Serial0/1/1

!

interface GigabitEthernet0

 vrf forwarding Mgmt-intf

 no ip address

 shutdown

 negotiation auto

!

ip forward-protocol nd

no ip http server

no ip http secure-server

ip tftp source-interface GigabitEthernet0

ip route 0.0.0.0 0.0.0.0 10.0.0.1

!

!

control-plane

!

banner motd ^C Authorized Users Only! ^C

!

line con 0

 password 7 05080F1C2243

 login

 stopbits 1

line aux 0

 stopbits 1

line vty 0 4

 password 7 104D000A0618

 login

!

end